Advanced Ladder Logic Full IEC Languages 25A for <1 24 VDC DC Switched

EXL6 OCS Datasheet for HE- EXL1E0, HE- EXL1E2, HE- EXL1E3, HE- EXL1E4, HE- EXL1E5, HE- EXL1E6 HEXT371C100, HEXT371C112, HEXT371C113, HEXT371C114, HEXT371C115, HEXT371C116 1. Specifications Required Power (Steady state) Required Power (Inrush) General Specifications 420mA @ 12VDC / 230 ma @24VDC Control & Logic Specifications Advanced Ladder Logic Control Language Support Full IEC 1131-3 Languages 25A for <1 ms @ 24 VDC DC Switched Logic Program Size & Logic Scan Rate 1MB, maximum 0.013mS/K Primary Power Range 10 30VDC Online Programming Changes Supported in Advanced Ladder Relative Humidity 5 to 95% Non- condensing Digital Inputs 2048 Clock Accuracy +/- 20 ppm maximum at 25 C Digital Outputs 2048 I/O Support (+/- 1 Minutes per Month) Analog Inputs 512 Surrounding Air Temp - 10 C to +60 C Analog Outputs 512 Storage Temp - 40 C to +60 C 50,000 (words) Retentive Weight 4.375 lbs (without I/O) General Purpose Registers 16,384 (bits) Retentive USA: http://www.heapg.com/pages/techsupport/productcert.html UL / CE 16,384 (bits) Non- retentive Europe: http://www.horner- apg.com/en/support/certification.aspx Display Specifications Connectivity Display Type 5.7 VGA TFT (450 nit typical) Serial Ports 1 RS- 232 & 1 RS- 485 on first Modular Jack (MJ1/2) 1 RS- 232 or 1 RS- 485 on second Modular Jack (MJ3) Resolution 640x480 USB mini- B USB 2.0 (480MHz) Programming & Data Access Color 16- bit (65,536) USB A USB 2.0 (480MHz) for USB FLASH Drives (2TB) Screen Memory 27 MB CAN Remote I/O, Peer- to- Peer Comms, Cscape User- Programmable Screens 1023 Ethernet 10/100 Mb (Auto- MDX), Modbus TCP C/S, HTTP, FTP, SMTP, Cscape, Ethernet IP Backlight LED 30,000 hour life Remote I/O SmartRail, SmartStix, SmartBlock, SmartMod Screen Update Rate User Configurable within the scan time. (perceived as instantaneous in many cases) Removabl e Memory MicroSD, support for 32GB max. Application Updates, Datalogging, more Input / Output Specifications Model DC In DC ma/v ma/v High- Speed Counters Relays HS In HS Out ma/v In Out /T Out Number of Counters 2 Model 2 12 6 4 4 c Maximum Frequency 500 khz each Model 3 12 12 4 2 2 Accumulator Size 32- bits each Model 4 24 16 4 2 2 Modes Supported Model 5 12 12 4 2 2 2 Totalizer Quadrature Model 6 12 12 4 2 6* 4* There are 4 high- speed inputs of the total DC Inputs. There are 2 high- speed outputs of the total DC outputs. Model 2, 3 & 4 feature 12- bit Analog I/O. Model 5 features 14/16- bit Analog I/O. High- speed Outputs can be used for PWM and Pulse Train Outputs, currently limited to <65kHz.. Model 6 Features a 14/17 bit Analog I/O 2. Dimensions & Panel Cutout *Up To six ma/v In, ma/v /Tc, and ma/v Out Frequency Pulse Measurement Measurement 2 Position Controlled Outputs 1 ON/OFF Setpoint per Output 001OCS003-R1 Cutout tolerance to meet NEMA standards is ±0.005 (0.1mm). Max. Panel Thickness is 5mm.

3. Installation Procedures 1. Carefully locate an appropriate place to mount the EXL6. Be sure to leave enough room at the top of the unit for insertion and removal of the microsd card. Also leave enough room at the bottom for the insertion and removal of USB FLASH drives and wiring 2. Carefully cut the host panel per the diagram above, creating a 175mm x 216 ± 0.1mm opening into which the EXL6 may be installed. If the opening is too large, water may leak into the enclosure, potentially damaging the OCS. If the opening is too small, the OCS may not fit through the hole without damage. 3. Remove all Removable Terminals from the OCS. Insert the OCS through the panel cutout (from the front). The gasket needs to be between the host panel and the OCS. 4. Install and tighten the mounting clips (provided in the box) until the gasket forms a tight seal (max torque 7-10 lb-in. [0.8 1.13 Nm]) 5. Reinstall the I/O Removable Terminal Blocks. Connect communications cables to the serial port, USB ports, Ethernet port, and CAN port as required. 4. Ports & Connectors

5. Built-in I/O (Model 2, 3, 4, 5 & 6) All EXL6 models (except the HE-EXL1E0) feature built-in I/O. The I/O is mapped into OCS Register space, in three separate areas Digital/Analog I/O, High-Speed Counter I/O, and High-speed Output I/O. Digital/Analog I/O location is fixed starting at 1, but the High- speed Counter and High-speed Output references may be mapped to any open register location. For more details on using the High-Speed Counter and High-Speed Outputs, see the EXL6 OCS User s Manual (MAN0974-01). 13-31 32 1-12 13-24 1-4 ;; 33-38 n/a 1-12 n/a

5.1 Model 2 I/O Specifications/Installation Specifications Digital DC Inputs Digital Relay Outputs Inputs per Module 12 including 4 configurable Outputs per Module 6 Relay HSC inputs Commons per Module 1 Commons per Module 6 Input Voltage Range 12 VDC / 24 VDC Max Output Current per Relay 3A @ 250 VAC, resistive Absolute Max. Voltage 35 VDC Max. Max. Total Output Current 5A continuous Input Impedance 10 kω Max. Output Voltage 275VAC, 30 VDC Input Current Upper Threshold Lower Threshold Positive Logic 0.8 ma 0.3 ma Negative Logic -1.6 ma -2.1 ma Max Switched Power 1250VAC, 150W Max Upper Threshold 8 VDC Contact Isolation to Ground 1000VAC Min Lower Threshold 3 VDC Max. Voltage Drop at Related Current 0.5V OFF to ON Response 1 ms Expected life (see below derating chart No Load: 5,000,000 for detail) Rated Load: 100,000 ON to OFF Response 1 ms Max. Switching Rate 300 CPM at no load 20CPM at rated load 10 khz Totalizer/Pulse, Edges Type Mechanical Contact HSC Max. Switching Rate 5 khz Frequency/Pulse, Width 2.5 khz Quadrature Response Time One update per ladder scan plus 10ms Analog Inputs, Medium Resolution Number of channels 4 Input Ranges 0-10 VDC 0-20mA 4-20mA Safe input voltage range -0.5V to 12V Input impedance (clamped @ -0.5VDC to 12 VDC Current Mode: 100 Ω Nominal Resolution 10 Bits %AI full Scale 32,000 Voltage Mode: 500 k Ω Max. Over Current 35 ma Conversion Speed Once per Ladder Scan Max. Error at 25 C 4-20 ma 1.00% Filtering (excluding zero) 0-20 ma 1.00% 160 Hz hash (noise) filter Adjusting filtering may tighten 0-10 VDC 1.50%* 1-128 scan digital running average filter

Specifications Digital DC Inputs Model 3 Model 4 Digital DC Outputs Model 3 Model 4 Inputs per Module 12 including 4 configurable HSC inputs 24 including 4 configurable HSC inputs Outputs per Module 12 including 2 configurable PWM outputs 16 including 2 configurable PWM outputs Commons per Module 1 Commons per Module 1 Input Voltage Range 12 VDC / 24 VDC Output Type Sourcing / 10 K Pull-Down Absolute Max. Voltage 35 VDC Max. Absolute Max. Voltage 28 VDC Max. Input Impedance 10 kω Output Protection Short Circuit Input Current Positive Logic Negative Logic Max. Output Current per point 0.5 A Upper Threshold 0.8 ma -1.6 ma Max. Total Current 4 A Continuous Lower Threshold 0.3 ma -2.1 ma Max. Output Supply Voltage 30 VDC Max Upper Threshold 8 VDC Minimum Output Supply Voltage 10 VDC Min Lower Threshold 3 VDC Max. Voltage Drop at Rated Current 0.25 VDC OFF to ON Response 1 ms Max. Inrush Current 650 ma per channel ON to OFF Response 1 ms Min. Load None HSC Max. Switching Rate 500KHz each OFF to ON Response 1 ms ON to OFF Response 1 ms Output Characteristics Current Sourcing (Pos logic)

Digital DC Inputs Digital DC Outputs Inputs per Module 12 including 4 configurable HSC inputs Outputs per Module 12 including 2 configurable PWM outputs Commons per Module 1 Commons per Module 1 Input Voltage Range 12 VDC / 24 VDC Output Type Sourcing / 10 K Pull-Down Absolute Max. Voltage 35 VDC Max. Absolute Max. Voltage 28 VDC Max. Input Impedance 10 kω Output Protection Short Circuit Input Current Positive Logic Negative Logic Max. Output Current per point 0.5 A Upper Threshold 0.8 ma -1.6 ma Max. Total Current 4 A Continuous Lower Threshold 0.3 ma -2.1 ma Max. Output Supply Voltage 30 VDC Max Upper Threshold 8 VDC Minimum Output Supply Voltage 10 VDC Min Lower Threshold 3 VDC Max. Voltage Drop at Rated Current 0.25 VDC OFF to ON Response 1 ms Max. Inrush Current 650 ma per channel ON to OFF Response 1 ms Min. Load None HSC Max. Switching Rate 10 khz Totalizer/Pulse, Edges OFF to ON Response 5 khz Frequency/Pulse, Width ON to OFF Response 2.5 khz Quadrature Output Characteristics Analog Inputs, High Resolution 1 ms 1 ms Current Sourcing (Positive Logic) Number of Channels 2 Thermocouple Temperature Range Input Ranges (Selectable) Safe input voltage range Nominal Resolution Input Impedance (Clamped @ -0.5 VDC to 12 VDC) %AI full scale 0-10 VDC, 0 20 ma, 4 20 ma, 100mV PT100, and J, K, N, T, E, R, S, B Thermocouples 10 VDC: -0.5 V to +15 V 20 ma: -0.5 V to +6 V / T/C: ±24 VDC 10V, 20mA, 100mV: 14 Bits, Thermocouple: 16 Bits Current Mode: 100 Ω, 35mA Max. Continuous Voltage Mode: 500 kω, 35mA Max. Continuous 10 V, 20 ma, 100 mv: 32,000 counts full scale. / T/C: 20 counts / C B / R / S E T J K / N Thermocouple Common Mode Range Converter Type Max. Error at 25 C (*excluding zero) Max Thermocouple Error (After Warm Up Time of One Hour) Conversion Speed, Both Channels Converted Max. Over-Current 35 ma Conversion Time per Channel Open Thermocouple Detect Current 2912 F to 32.0 F (1600 C to 0 C) 1652 F to -328 F (900 C to -200 C) 752.0 F to -400.0 F (400 C to -240 C) 1382.0 F to -346.0 F (750 C to -210 C) 2498.0 F to -400 F (1370 C to -240 C) ±10V Delta Sigma *4-20 ma ±0.10%* *0-20 ma ±0.10%* *0-10 VDC ±0.10%* (PT100) ±1.0 C 0-100 mv ±0.05% ±0.2% (±0.3% below -100 C) 10V, 20mA, 100mV: 30 Times/Second, Thermocouple: 7.5 Times/Second 10V, 20mA, 100mV: 16.7mS, Thermocouple: 66.7mS 50 na Excitation Current 250 µa

5.4 Model 6 I/O 5.4.1 Hardware Specification Digital DC Inputs Digital DC Outputs Inputs per Module 12 Outputs per Module 12 Commons per Module 1 Commons per Module 1 Input Voltage Range 0 VDC - 24 VDC Output Type Half-Bridge Absolute Max. Voltage 35 VDC Max. Absolute Max. Voltage 30 VDC Max. Input Impedance 10 kω Output Protection Short Circuit & Overvoltage Max. Output Current per 0.5 A Input Current Positive Logic Negative Logic point Minimum On current 0.8 ma -1.6 ma Max. Total Current per driver 2A total current (all drivers) UL- Maximum Off current. 0.3 ma -2.1 ma (Q1-4, Q5-8, Q9-12). rated, 6A UL pending Min On Input 8 VDC Max. Output Supply Voltage 30 VDC Max Off Input 3 VDC Minimum Output Supply 10 VDC Voltage OFF to ON Response 1 ms Max. Voltage Drop at Rated 0.25 VDC Current ON to OFF Response 1 ms Min. Load None Galvanic Isolation None. I/O Indication None Logic Polarity Positive and Negative based on Galvanic Isolation None Common pin level. I/O Indication None. OFF to ON Response 150nS High Speed Counter Inputs* 4 - DIN 8-12 ON to OFF Response 150nS High Speed Counter Max Freq* XLE/T/6/10 (10KHz max) XL4/7 EXL6/10 (500KHz max) PWM Out* XLE/T/6/10 (65KHz max) XL4/7 EXL6/10 (500KHz max) Connector Type 3.5mm Pluggable cage clamp connector Output Characteristics Current Sourcing (Pos logic) Analog Inputs Number of Channels 6 Absolute max Input Voltage -0.5-12V dc. (+/-30Vdc) Input Range 0 20mA, 4-20 ma dc. T/C / / mv > 2 MΩ Input Impedance 0-60mV, 0-10V dc. ma: 15 Ω + 1.5 V (Clamped @ -0.5 to T/C - J, K, N, T, E, R, S, B V: 1.1 MΩ 10.23VDC). - PT100, PT1000 Nominal Resolution 14-17 Bits (variable depending Galvanic Isolation None on input type) Sensor Range and Accuracy Input Type Range Accuracy TC J -120 to 1000 C / -184 to 1832 F ± 0.2% FS ± 1 C TC K -130 to 1372 C / -202 to 2501.6 F ± 0.2% FS ± 1 C TC T -130 to 400 C / -202 to 752 F ± 0.2% FS ± 1 C TC E -130 to 780 C / -202 to 1436 F ± 0.2% FS ± 1 C TC N -130 to 1300 C / -202 to 2372 F ± 0.2% FS ± 1 C TC R, S 20 to 1768 C / 68 to 3214.4 F ± 0.2% FS ± 3 C TC B 100 to 1820 C / 212 to 3308 F ± 0.2% FS ± 3 C PT100/1000-200 to 850 C / -328 to 1562 F ± 0.15% FS 0-20mA 0-20mA ± 0.15% FS 0-60mV 0-60mV ± 0.15% FS 0-10V 0-10V ± 0.15% FS Conversion Speed Minimum all channels converted in approx. 150mS. Analog Outputs Number of Channels 4 Minimum Current load 500Ω Output Ranges 0 10Vdc. None Galvanic Isolation 0 20mA, 4-20mA dc Nominal Resolution 12 Bits Conversion Speed Min all channels once per scan. Response Time One update per ladder scan. Max. Error at 25 C (excluding zero) 0-20 ma 0.1% of full scale. 0-10 V 0.1% of full scale *see I/O information below for detail regarding HSC and PWM Additional Error for temperatures other than 25 C 20mA 0.0126%/ C.

5.4.2 Connection Details Note * Both ma & V outputs are active for each output channel, however, only the configured output type is calibrated (maximum 4 channels simultaneously).

5.4.3 Example Universal Input Wiring Schematic Note * Both ma & V outputs are active for each output channel, however, only the configured output type is calibrated (maximum 4 channels simultaneously). 0 10 V Analog In NC A1A A1B 0-10VDC A1C 100mV- 100mV+ mv In A1A A1B NC A1C Thermocouple In A1A A1B A1C 4-20 ma Analog Out 20mA MA1 0V LOOP PWR Notes: + 20mA 20 ma Analog In In NC A1A A1B A1C Loop Power requirements are determined by the transmitter specification. Power supply should be isolated. A1A A1 B A1 C 0-10 V Analog Out 10VDC V1 0V Configuration The data registers are as follows: Digital Inputs Digital Outputs Analogue Inputs Analogue Outputs %I1-12 %Q1-12 %AI1-4, %AI33-38 %AQ9-12 Note that the first four analogue inputs are mapped to both %AI1-4 and %AI33-36, analogue input channels 5 & 6 are mapped to %AI37 and %AI38 respectively only. 5.4.4 Data values: The analogue inputs return data types as follows: Input Mode Data format Comment 0-20mA, 4-20mA 0-32000 0-10V, 0-60mV 0-32000 T/C, 5.4.5 Status Register Temperature in C or F to 1 decimal place xxx.y C or F may be selected in the I/O config section. The value is an integer, the user should divide by 10. Register Description %R1 Bit-wise status register enable R1.1 R1.9 enable for registers R2 to R9 %R2 Firmware version %R3 Watchdog count cleared on power-up. %R4 Status bits - 16 4 3 2 1 Reserved Normal Config Calibration %R5 Scan rate of the 106 board (average) in units of 100µS. %R6 Scan rate of the 106 board (max) in units of 100µS. %R7 Channel Status Channel 2 Channel 1 8 7 6 5 4 3 2 1 Open Out of Open T/C Open Out of Open T/C %R8 Channel Status Channel 4 Channel 3 8 7 6 5 4 3 2 1 Open Out of Open T/C Open Out of Open T/C %R9 Channel Status Channel 6 Channel 5 8 7 6 5 4 3 2 1 Open Out of Open T/C Open Out of Open T/C %R10-14 Reserved Note: For the purposes of the example, the block is shown starting at %R1, but it can be set to anywhere in the %R memory map.

6. Safety 7. Common Cause of Analog Input Tranzorb Failure A common cause of Analog Input Tranzorb Failure on Analog Inputs Model 2, 3, 4 & 5: If a 4-20mA circuit is initially wired with loop power, but without a load, the Analog input could see 24Vdc. This is higher than the rating of the tranzorb. This can be solved by NOT connecting loop power prior to load connection, or by installing a low-cost PTC in series between the load and Analog input. NOTE : Refers to Model 2 orange (pg.5,) Models 3 & 4 J1 (pg.6) and Model 5 20mA Analog In (pg.7.) 8. Technical Support For assistance and manual updates, contact Technical Support at the following locations: North America (317) 916-4274 Toll Free: 877-665-5666 http://www.heapg.com e-mail: techsppt@heapg.com Europe (+) 353-21-4321-266 http://www.horner-apg.com e-mail: tech.support@horner-apg.com